Impact Of The Tip Clearance And The Inflow Nozzle Shape On The Performance Of Low-Pressure Axial Fans
Fritsche, Manuel; Epple, Philipp; Delgado , Antonio (2022)
Proceedings of the ASME 2022 International Mechanical Engineering Congress & Exposition IMECE2022 2022.
Peer Reviewed
The Impact of Scaling On The Gap Flow Rate Of Radial Fans
Fritsche, Manuel; Epple, Philipp; Delgado , Antonio (2022)
Proceedings of the ASME 2022 Fluids Engineering Division Summer Meeting 2022.
Peer Reviewed
Simulation-Driven Blade Work Distribution Based Design Strategy and Optimization Of A Low-Pressure Axial Fan
Fritsche, Manuel; Epple, Philipp; Delgado , Antonio (2022)
Proceedings of the ASME 2022 Fluids Engineering Division Summer Meeting.
Peer Reviewed
Einsatz von Just-In-Time-Teaching und Projektarbeit in der Requirements-Engineering-Ausbildung
Reißing, Ralf (2022)
Softwaretechnik-Trends 42, 18-20.
Impact Of The Blade Profiling On The Performance Of Low-Pressure Axial Fans
Fritsche, Manuel; Epple, Philipp; Delgado , Antonio (2022)
Proceedings of the ASME 2022 International Mechanical Engineering Congress & Exposition IMECE2022 2022.
Peer Reviewed
Podcast Inside Hochschule
Arbeiter, Georg (2022)
Podcast Radio Eins.
Fahrerlose Shuttles im öffentlichen Personennahverkehr: Akzeptanz und Einstellung in der Bevölkerung
Wilde, Mathias; Rebhan , Jakob (2022)
Standort - Zeitschrift für Angewandte Geographie 46 (1), 2-8.
DOI: 10.1007/s00548-021-00746-2
Open Access Peer Reviewed
Erweiterung von Gefahren- und Risikoanalysen der Funktionalen Sicherheit um Aspekte der Produktsicherheit nach ISO 12100
Emig , Moritz ; Metz, Pierre; Reißing, Ralf (2022)
Software Engineering 2022 Workshops, 2022, 82-93.
DOI: 10.18420/se2022-ws-11
Open Access Peer Reviewed
Aerodynamic Performance Analysis Of Winglets Of Modern Sailplanes
Kästner , J.; Epple, Philipp; Steppert, Michael (2022)
ASME 2021 International Mechanical Engineering Congress and Exposition IMECE2021
November 1–5, 2021
Virtual, Online 10.
DOI: 10.1115/IMECE2021-69672
Peer Reviewed
In this work the aerodynamic performance of winglets of modern sailplanes were investigated. First isolated wings with winglets were designed and investigated and compared to the wings without winglets, showing the fundamental working principle and effectiveness of winglets. Then a complete sailplane was designed with an integrated inviscid flow method with XFLR5 [1] combined with Navier-Stokes CFD with Siemens PLM STAR CCM+ computations. In such a way a modern sailplane was designed for operation with winglets. Using this modern sailplane design the impact of winglets on sailplanes was investigated in detail. This modern sailplane was simulated with CFD in the configurations without winglets and with two modern advanced winglets and their aerodynamic characteristics and performance were investigated and compared. All aerodynamic results are analyzed and shown in detail.
Shuttle-Modellregion Oberfranken: Forschung im Realbetrieb
Reißing, Ralf; Wilde, Mathias; Wige, E.; Abeler , L.; Lindner , P.; Piechaczyk , F. (2021)
Der Nahverkehr - Öffentlicher Personenverkehr in Stadt und Region (11), 49-55.
Gesetz zum autonomen Fahren: Für die Kommunen unzureichend
Wilde, Mathias (2021)
AKP - Fachzeitschrift für Alternative Kommunal Politik (4), 46-47.
Die KI als Chauffeur – Zukünfte des autonomen Fahrens
Wilde, Mathias (2021)
IM+io - Das Magazin für Innovation, Organisation und Management (03), 76-79.
On How the Generation of Lift Can Be Explained in a Closed Form Based on the Fundamental Conservation Equations
Epple, Philipp; Babinsky, H.; Steppert, Michael; Fritsche, Manuel (2020)
Proceedings of the ASME 2020 Fluids Engineering Division Summer Meeting 2020.
Peer Reviewed
Analytical and numerical investigation of the fluid structure interaction of an elastic beam in a water channel
Fritsche, Manuel; Epple, Philipp; Delgado , Antonio (2020)
Proceedings of the ASME 2020 International Mechanical Engineering Congress and Exposition 2020.
Peer Reviewed
Numerical Performance Predictions of Artificial Intelligence-Driven Centrifugal Compressor Designs
Fritsche, Manuel; Epple, Philipp; Kubrak, B.; Gast, Stefan; Delgado , Antonio; Barannik, V. (2020)
Fritsche, Manuel; Epple, Philipp; Kubrak, B.; Gast, Stefan; Delgado , Antonio...
Proceedings of the ASME 2020 Fluids Engineering Division Summer Meeting 2020.
DOI: 10.1115/FEDSM2020-20087
Peer Reviewed
Application of a simulation-based metamodel of the Euler equation
Fritsche, Manuel (2019)
3. Netzwerktreffen des BayWISS Verbundkollegs Digitalisierung (Poster-Session). 2019.
Numerical Verification of the Thermodynamic Determination of the Hydraulic Efficiency of Radial Fans
Epple, Philipp; Fritsche, Manuel; Reinker, F.; Wiesche, S. aus der (2019)
Proceedings of the ASME 2019 International Mechanical Engineering Congress and Exposition IMECE2019-11417 2019.
DOI: 10.1115/IMECE2019-11417
Theoretical and Numerical Analysis of the Pressure Distribution and Discharge Velocity in Flows under inclined Sluice Gates
Epple, Philipp; Steppert, Michael; Malcherek, A.; Fritsche, Manuel (2019)
Proceedings of the ASME - JSME - KSME Joint Fluids Engineering Conference 2019, AJKFLUIDS2019-4613 2019.
Peer Reviewed
Numerical Investigation of the Euler Turbomachinery Equation and Analysis of the Impact of the Impeller Design on the Fan Performance by Optimization Study
Fritsche, Manuel; Epple, Philipp; Gast, Stefan; Delgado , Antonio (2019)
Proceedings of the ASME 2019 International Mechanical Engineering Congress and Exposition IMECE2019-11417 2019.
CFD-Simulation of Centrifugal Fan Performance Characteristics Using Ideal and Real Gas Models for Air and Organic Fluids
Fritsche, Manuel; Epple, Philipp; Hasselmann, K.; Reinker, F.; Wagner, R.; Wiesche, S. aus der (2019)
Fritsche, Manuel; Epple, Philipp; Hasselmann, K.; Reinker, F.; Wagner, R....
Proceedings of the ASME - JSME - KSME Joint Fluids Engineering Conference 2019, AJKFLUIDS2019-4613 2019.
Fakultät Maschinenbau und Automobiltechnik (FMA)
Hochschule Coburg
Friedrich-Streib-Str. 2
96450 Coburg
Monika Schnabel
Forschungsreferentin, EU-Referentin
T +49 9561 317 8062
monika.schnabel[at]hs-coburg.de